Field of the invention
[0001] The present invention relates to containers for the propagation and growth of plants,
sections of material suitable for forming such containers and processes of forming
such sections of material.
Background to the invention
[0002] Plant containers having apertures formed in their sides and bases are known. As a
plant grows in such a container, the plant's roots grow towards the apertures and
in so doing are exposed to increasingly more air and thus eventually become dehydrated.
Dehydration causes the roots to wither. This process is called air pruning.
[0003] A plant container having an air pruning facility is disclosed in
US Patent 4,939,865 (Whitcomb et al). This patent discloses a container for growing plants, which is formed of flexible
sections of material having a lattice of corresponding recesses and protuberances.
The sections of material are formed into a cylindrical container such that the protuberances
are on the outer surface of the container. Each corresponding protuberance and recess
has an aperture. In use, plant roots grow into the recesses and through the apertures
where the root tip dehydrates and is air pruned.
[0004] Improvements to the abovementioned container are described in
WO 2005/011361, which discloses a plant container comprising at least one section of flexible material
having an inner surface formed by an array of recesses and protuberances. At least
some of the recesses narrow to an aperture to provide for air pruning. The outer surface
is also formed in part by an array of recesses and protuberances. Figure 1 shows the
container of
WO 2005/011361 in cross-section. The plant container 1 of Figure 1 has compost 3 around the root
7 of plant 5. The contoured sides 9 of the plant container, which are formed from
one or more sections of material, contain a number of laterally extending protuberances
11. The sections of material are formed by mechanical deformation of a sheet of plastics
material. The protuberances extend at approximately 90° to the square cross section
cylindrical geometry of the plant container. The protuberances 11 guide the roots
towards apertures formed at the end of recesses between the protuberances.
[0005] The present inventor has appreciated shortcomings of the above known containers.
The present inventor has further appreciated that such known containers may not provide
for effective guidance of roots towards the apertures where air pruning takes place.
[0006] It is therefore an object for the present invention to provide an improved plant
container.
[0007] It is a further object for the present invention to provide a plant container configured
to provide for improved guidance of roots towards apertures formed in the container.
Statement of invention
[0008] In the light of the above mentioned appreciation the present inventor has devised
a plant container, which according to a first aspect, comprises at least one section
of material, the at least one section of material being configured to define a space
having a plant receiving end, the at least one section of material having an inner
surface and an outer surface, the inner surface defining a plurality of recesses,
each of which narrows towards an aperture, and a plurality of protuberances, characterised
in that each recess being defined in part by first and second substantially opposing
surfaces such that the recess is asymmetric in form.
[0009] In use, the protuberances on the inner surface guide roots into recesses and the
asymmetry of the recesses guide the growth of roots in desired directions.
[0010] More specifically, a base of each recess may be defined in part by a first edge and
in part by a second edge, which opposes the first edge, and the aperture may be closer
to the first edge than the second edge, the container being configured such that the
second edge is closer to the plant receiving end than the first edge.
[0011] More specifically, the first surface may extend away from the first edge to an aperture
and the second surface may extend away from the second edge to the aperture. In use,
plant roots are guided into the recesses as the plant roots grow downwards away from
the plant receiving end.
[0012] Alternatively or in addition, the first and second surfaces of each recess may extend
away from the aperture at different inclinations to a plane defined by the aperture.
[0013] Alternatively or in addition, each recess may define a second aperture from which
the recess narrows towards the first aperture. The second aperture may be defined
in part by each of the first and second edges of the recess. More specifically, each
recess may be configured such that the first and second apertures are disposed eccentrically
in relation to each other. A recess may be asymmetric when viewed from a side of the
recess.
[0014] Alternatively or in addition, one of the first and second surfaces may be of greater
length than the other of the first and second surfaces.
[0015] Alternatively or in addition, each of the plurality of protuberances may define an
apex, the plurality of the thus defined apexes defining an apex plane. Where the container
is of cylindrical form, the apex plane may define a cylinder.
[0016] More specifically, the first surface of each recess may extend away from the apex
plane at a first inclination and the second surface may extend towards the apex plane
at a second inclination, the first inclination being less than the second inclination.
Thus, in use of the container, the first surface may extend in an upward direction
away from the apex plane and the second surface may extend in a downward direction
away from the apex plane.
[0017] Alternatively or in addition, each protuberance may be asymmetric in form. Each protuberance
may comprise one or more features of a recess.
[0018] Alternatively or in addition, an apex of each of the plurality of protuberances may
be defined by a domed surface.
[0019] Alternatively or in addition, the plurality of protuberances may be interspersed
amongst the plurality of recesses.
[0020] More specifically, the first and second surfaces of each recess may be formed at
least in part by surfaces of the protuberances, such as protuberances adjacent the
recess.
[0021] Alternatively or in addition, a plurality of protuberances, such as four protuberances,
may be disposed around each recess.
[0022] More specifically, the plurality of protuberances may be disposed regularly around
each recess. Thus, adjacent protuberances around a recess may be substantially equally
spaced apart from each other.
[0023] Alternatively or in addition, at least one of the plurality of recesses and the plurality
of protuberances may be formed as an array.
[0024] In a form, adjacent recesses of the array of recesses may be substantially equally
spaced apart from each other and adjacent protuberances of the array of protuberances
may be substantially equally spaced apart from each other.
[0025] More specifically, each of the array of recesses and the array of protuberances may
comprise a plurality of rows and a plurality of columns.
[0026] More specifically, protuberances may alternate in the array with recesses.
[0027] More specifically, one of the plurality of rows and columns of recesses may be misaligned
with an adjacent, corresponding one of rows and columns of protuberances.
[0028] More specifically, each protuberance may be closer to a first recess than a second
recess, the first and second recesses being adjacent and in the same row of recesses.
[0029] Alternatively or in addition, each row of the plurality of rows of at least one of
the recesses and the protuberances may extend diagonally across the section of material.
Thus, the rows may each describe a helical path on the inner surface of the container,
when the container is formed as a cylinder.
[0030] Alternatively or in addition, a width may be substantially the same for each of at
least one of: the plurality of recesses; and the plurality of protuberances.
[0031] In another form, at least one of recesses of the array of recesses and of protuberances
of the array of protuberances may be irregularly spaced apart from each other.
[0032] More specifically, each of the array of recesses and the array of protuberances may
comprise a plurality of rows and a plurality of columns.
[0033] More specifically, one of the plurality of rows and columns of recesses may be misaligned
with an adjacent, corresponding one of rows and columns of protuberances.
[0034] More specifically, each protuberance may be closer to a first recess than a second
recess, the first and second recesses being adjacent and in the same row of recesses.
[0035] Alternatively or in addition, spacing between adjacent recesses may increase progressively
from a side of the section of material towards an opposing side of the section of
material. Thus, rows of recesses may describe curved paths across the section of material.
[0036] Alternatively or in addition, spacing between adjacent protuberances may increase
progressively from a side of the section of material towards an opposing side of the
section of material. Thus, rows of protuberances may describe curved paths across
the section of material.
[0037] Alternatively or in addition, a width of each of at least one of: the plurality of
recesses; and the plurality of protuberances may progressively increase across the
section of material.
[0038] Alternatively or in addition, at least one of: the plurality of recesses; and the
plurality of protuberances may be of substantially a same depth.
[0039] Alternatively or in addition, at least one of: the plurality of recesses; and the
plurality of recesses may be of substantially a same shape. More specifically, the
same shape may be conical.
[0040] Alternatively or in addition, the outer surface may define a plurality of recesses
and a plurality of protuberances.
[0041] More specifically, each of the plurality of recesses may be at substantially a same
disposition on the section of material as a corresponding protuberance on the inner
surface. Thus, where recesses on the outer surface and protuberances on the inner
surface are formed by deformation of the section of material, a surface of the protuberance
may oppose a surface defining the recess.
[0042] Alternatively or in addition, each of the plurality of protuberances may be at substantially
a same disposition on the section of material as a corresponding recess on the inner
surface. Thus, where protuberances on the outer surface and recesses on the inner
surface are formed by deformation of the section of material, a surface defining the
recess may oppose a surface of the protuberance.
[0043] Alternatively or in addition, towards a middle portion of the container (i.e. where
a growing medium is present and adjacent the inner surface of the container) the recesses
may comprise medium sized apertures. A medium sized first aperture may be defined
as having a surface area of between about 6% and about 20% of an area of a base of
a recess. The area of the base may be chosen in dependence on the species of plant
to be contained in the container.
[0044] Alternatively or in addition, recesses towards an end of the container opposing the
plant receiving end (e.g. below the base where a base is present as part of the container)
may have apertures of large diameter. A large diameter aperture is defined as having
a surface area of between about 10% and about 50% of an area of a base of a recess.
Apertures below the base may increase air circulation and thereby aid air root pruning.
[0045] Alternatively or in addition, each of the protuberances (on the inner surface) may
comprise an aperture. Such protuberances comprising apertures may be located towards
an end of the container opposing the plant receiving end. More specifically, where
the container comprises a base, such protuberances comprising apertures may be located
on a side of the base opposite the plant receiving end (i.e. underneath the base).
The apertures in the protuberances may provide for increased air circulation.
[0046] Alternatively or in addition, apertures of at least one of recesses and protuberances
may be of different diameters across the section of material.
[0047] Alternatively or in addition, the section of material may be configured such that
recesses towards the plant receiving end have no aperture. Thus, a water reservoir
may be formed near the plant receiving end to, in use, reduce the likelihood of irrigation
water being lost from the container before it reaches compost contained in the container.
[0048] Alternatively or in addition, the section of material may be configured to form a
cylindrical container.
[0049] Alternatively or in addition, the section of material may be formed at least in part
of flexible material.
[0050] Alternatively or in addition, the at least one section of material may be formed
as a quadrilateral having two acute angles and two obtuse angles. Thus, a diagonal
join can be formed, which may extend partly around the container.
[0051] Alternatively or in addition, the section of material may be formed as the container
such that adjacent ends of the at least one section of material overlap. In use, a
portion of an end of the section of material, i.e. that part including an acute angle
of the quadrilateral, can be 'peeled back'. This can allow the contents of the container
to be removed, without causing the container to collapse, as a portion towards an
opposing end of the section of material, e.g. towards a base of the container, can
remain in the overlapped configuration. A further advantage is that inspection of
the contents of the container can be undertaken by peeling back a portion of the material
of the container along the diagonal join.
[0052] Alternatively or in addition, a portion of the section of material may be devoid
of recesses.
[0053] More specifically, the portion may be at or near the plant receiving end of the container.
[0054] Alternatively or in addition, the quadrilateral may be a parallelogram.
[0055] Alternatively or in addition, the quadrilateral may have at least one curved side.
[0056] Alternatively or in addition, the container may be configured such that an end of
the container opposing the plant receiving end may be narrower than the plant receiving
end. Thus, the container may be frustroconical in form.
[0057] Alternatively or in addition, the acute angles of the quadrilateral may be between
about 30 degrees and about 60 degrees. More specifically, the acute angles may be
about 45 degrees. A 45 degree angle has been found to provide superior performance
under certain circumstances.
[0058] Alternatively or in addition, the container may comprise at least one fastener configured
to fasten edges of the section of material together to maintain the form of the container.
[0059] More specifically, the fastener may be integrally formed with the section of material.
[0060] Alternatively or in addition, the container may comprise at least two fasteners operable
to fasten edges of the section of material together at spaced apart locations. More
specifically, a first fastener may be disposed towards the plant receiving end of
the container and a second fastener may be disposed towards an end of the container
opposing the plant receiving end. This may allow the first fastener to be released
to allow the section of material to be 'peeled back' for inspection of the container
contents, while a bottom of the container is held in place around the contents.
[0061] Alternatively or in addition, the inner surface of the section of material may further
have a second plurality of protuberances, the second plurality of protuberances extending
further into the space defined by the container than the first plurality of protuberances.
[0062] More specifically, the second plurality of protuberances may extend at least partly
around the inner surface of the container and may be disposed towards an end of the
container opposing the plant receiving end.
[0063] Alternatively or in addition, the container may further comprise a base member, the
container being configured such that the second plurality of protuberances engages
with and supports the base member.
[0064] Alternatively or in addition, the second plurality of protuberances may comprise
first and second rows of protuberances extending at least partly around the inner
surface of the container.
[0065] More specifically and where the container comprises a base member, the first and
second rows of protuberances may be spaced apart from each other to receive an edge
of the base member between the rows. Thus, the presence of protuberances above and
below the edge of the base member resists movement of the base away from or towards
the plant receiving end.
[0066] Alternatively or in addition, the container may further comprise a base member, which
is integrally formed with the section of material.
[0067] More specifically, the base member may be connected to the flexible member along
part of a circumference of the base member, the connection forming a hinge.
[0068] More specifically, the hinge may be a living hinge.
[0069] Alternatively or in addition where the outer surface has a first plurality of protuberances,
the outer surface may further have a second plurality of protuberances, the second
plurality of protuberances extending further away from the outer surface than the
first plurality of protuberances, the second plurality of protuberances being disposed
in relation to each other such that, in use, they engage with and hold an identification
member.
[0070] More specifically, the identification member may comprise a section, such as a rectangular
section, of one of: card, plastics, metal, wood and the like. The identification member
may bear a mark, such as-writing, that identifies a plant contained in the container.
[0071] Alternatively or in addition, the second plurality of protuberances may comprise
first and second rows of protuberances, which each extend at least partly around the
outer surface, the first and second rows of protuberances being spaced apart from
each other. Thus, an identification member, such as a piece of cardboard, may be pressed
between the rows of protuberances and held in place by the protuberances.
[0072] Alternatively or in addition, the section of material may be formed at least in part
of a plastics material. The plastics material may be polypropylene, polystyrene or
a recycled plastic such as HDPE (High Density Polyethylene) obtained from domestic
waste.
[0073] More specifically, the plastics material may comprise a pigment, e.g. black pigment.
[0074] According to a second aspect of the present invention, there is provided at least
one section of material for forming a plant container, the at least one section of
material having an inner surface and an outer surface, the inner surface defining
a plurality of recesses, each of which narrows towards an aperture, and a plurality
of protuberances, characterised in that each recess being defined in part by first
and second substantially opposing surfaces such that the recess is asymmetric in form.
[0075] Embodiments of the second aspect of the present invention may comprise one or more
features of the first aspect of the present invention.
[0076] According to a third aspect of the present invention, there is provided a process
of forming a section of material, which is configured to be formed as a plant container,
the process comprising the steps of:
deforming a section of deformable material to form a plurality of recesses and a plurality
of protrusions on an inner surface of the section of material, characterised in that
each of the plurality of recesses narrowing towards an apex and being defined in part
by first and second substantially opposing surfaces such that the recess is asymmetric
in form; and
forming an aperture at the apex of each of the plurality of recesses.
[0077] More specifically, the step of deforming a section of deformable material may comprise
impressing the deformable material from one side with a plurality of protruding members
mounted on a tool (i.e. by mechanical deformation). Thus, each protruding member may
form a recess in the material.
[0078] More specifically, the step of deforming a section of deformable material may further
comprise impressing the deformable material from a second, opposing side with a plurality
of protruding members mounted on a tool.
[0079] More specifically, the first and second opposing sides of the deformable material
may be impressed at substantially a same time. Thus, the step of deforming a section
of deformable material may be performed by first and second tools having a plurality
of protruding members.
[0080] More specifically, the plurality of protruding members of each of the first and second
tools may be formed in an array.
[0081] More specifically, the adjacent protruding members in the array may be substantially
equally spaced from each other.
[0082] More specifically, the step of deforming a section of deformable material may comprise
impressing the material when the protruding members of the first and second tools
are out of registration with each other such that one of rows and columns of protruding
members are misaligned with each other.
[0083] More specifically, each protruding member of the first tool may be closer to a first
protruding member of the second tool than a second protruding member of the second
tool, the first and second protruding member being adjacent and in the same row of
the second tool.
[0084] Alternatively or in addition, the section of material may be deformed by at least
one of: vacuum forming; blow moulding; injection moulding. Such techniques can allow
for formation of the section of material from thinner material than where the section
of material is to be formed by mechanical deformation.
[0085] Further embodiments of the third aspect of the present invention may further comprise
one or more features of the first aspect of the present invention.
[0086] The present inventor has appreciated that the feature of the inner surface of the
section of material having a second plurality of protuberances is of wider application
than hitherto described.
[0087] Where the word plant is used herein the word is intended to cover all plants, including
trees, shrubs, conifers, herbaceous plants, perennial plants and annual plants.
Brief description of drawings
[0088] The present invention will now be described by way of example only with reference
to the following Figures in which:
Figure 1 shows an example of the prior art plant container in cross section;
Figure 2 shows the cross section of an embodiment of the present invention;
Figure 3 shows the inside surface of a section of flexible material from which an
embodiment of the present invention is constructed;
Figures 4a and 4b illustrate protuberances and recesses provided on two different
embodiments of a section of flexible material;
Figure 5 shows a cylindrical plant container in accordance with the present invention;
Figures 6a and 6b show the net of a cylindrical plant container having a base attached
thereto;
Figure 7 is a cross-sectional view of the plant container of the present invention
in use;
Figure 8 shows another embodiment of a plant container; and
Figures 9a and 9b show apparatus used in a process for forming a section of material
to be formed as a plant container.
Specific description
[0089] Figure 2 shows the cross section of an embodiment of the present invention. The container
profile 13 is shown with contoured sides 15, a base 17 and a top 27, which defines
a plant receiving end. The contoured sides 15 comprise a number of recesses 19 arranged
with a number of protuberances 21. In this example at least one of the recesses 19
contains an aperture 23 at the end thereof. The aperture 23 allows a root to move
into the recess 19 and be air pruned. Line 25 shows the generally cylindrical geometry
of the plant container. As can be seen from Figure 2, the top 27 is of larger diameter
than the bottom 17. In other forms of the invention the container is of substantially
constant diameter, e.g. as shown in Figure 8. The recesses 19 and protuberances 21
are asymmetric and have a lower section 22 (which defines a first surface of a recess)
and an upper section 24 (which defines a second surface of a recess). The lower section
22 extends outwardly from a first edge 22a and the upper section 24 extends outwardly
from a second edge 21a, the first and second edges defining an extent of a base of
a recess 19. The lower section 22 extends out from the first edge away from the centre
of the cylinder whereas the upper section 24 extends out from the second edge and
is sharply angled towards the top 27 of the cylinder. The lower section 22 is shorter
than the upper section 24. Thus, the lower section 22 is of less inclination than
the upper section 24. The asymmetric geometry of each recess is such that the recess
is more liable to guide a root towards an aperture 23 than, for example, the symmetric
recesses of
WO 2005/011361, as shown in Figure 1. This is because a root is more liable to grow up the slight
incline defined by the lower section 22 than the greater incline defined by a symmetric
recess. A lower section of greater incline is more liable to deflect a root towards
the centre of the container. The greater incline defined by the upper section 24 increases
an extent of the lower section 22 presented to a root that is growing downwards from
the top 27 of the container. The increased extent of the lower section 22 presented
to the root increases the likelihood of the lower section directing the root's growth
towards the aperture. In addition, the asymmetry of the recesses provides for ease
of proper filling of the container with compost. This is because compost accumulates
readily on the lower section 22 of each recess. An attendant benefit is that an asymmetric
recess is more likely to fill properly with compost compared with a symmetric recess,
which may be liable to fill only to the extent that a pocket of air is left along
the upper section. Such a pocket of air can hinder growth of a root towards the aperture.
[0090] Figure 3 shows a part of a section of material 31 from which the sides 15 of the
container of Figure 2 are formed. The section of material is formed from polypropylene,
polystyrene or a recycled plastic such as HDPE (High Density Polyethylene) obtained
from domestic waste. Figure 3 shows the inner surface of the section of material.
The figure shows the protuberances 21, the apexes 21a of the protuberances 21 and
the recesses 19. As can be seen from Figure 3, the protuberances are substantially
conically shaped, the cones being asymmetric as described above with respect to the
recesses. As the section of material is formed from a sheet of material of substantially
constant thickness, the reverse side of the section of material of Figure 3 (which
forms the outer surface of the container) is defined by recesses and protuberances
corresponding respectively, in location and form, to the protuberances and recesses
shown in Figure 3. More specifically, an opposing side of a protuberance of the side
of material shown in Figure 3 defines a recess. Also, an opposing side of a recess
of the side of material shown in Figure 3 defines a protuberance.
[0091] Figure 4a is a schematic depiction of one embodiment of the present invention. In
this depiction, the section of material is shown in net form 37 with the "X" 39 illustrating
protuberances and the "O" 41 designating recesses with apertures, which are arranged
in columns 42. As can be seen from Figure 4a, the protuberances 39 and recesses 41
in each column 42 alternate and are aligned with each other. Within each column 42
each protuberance is closer to one of the immediately adjacent recesses above and
below the protuberance, thereby providing for the asymmetry of the protuberances and
recesses described above with reference to Figure 2. The outer edges of 43, 45, 47
and 49 of the net 37 of Figure 4a are curved. The curved geometry of the net allows
the net to be rolled into a cylindrical shape with a base having a smaller diameter
than the plant receiving end.
[0092] In one un-illustrated form, the rows of the protuberances and the recesses diverge
from one outer edge to an opposing outer edge, e.g. from edge 47 to edge 49. In such
a form the divergence of the rows of the protuberances and recesses is achieved by
having progressively wider protuberances and recesses from one edge to another edge.
[0093] Figure 4b is a schematic depiction of another embodiment of the present invention.
In this depiction, the section of material 37 is shown in net form 37 with the "X"
39 illustrating protuberances and the "O" 41 designating recesses with apertures,
which are arranged in columns 42. The disposition of protuberances and recesses in
the embodiment of Figure 4b is the same as in the embodiment of Figure 4a. More specifically,
the protuberances 39 and recesses 41 in each column 42 alternate and are aligned with
each other. Within each column 42 each protuberance is closer to one of the immediately
adjacent recesses above and below the protuberance, thereby providing for the asymmetry
of the protuberances and recesses described above with reference to Figure 2.
[0094] The effect of the curved geometry feature of the embodiment of Figure 4a is shown
in Figure 5 where edge 47 is shown to be the edge defining the circumference of the
base of the cylinder and edge 49 is shown to be the edge that defines the circumference
of the top of the cylinder. It is apparent from Figure 5 that the circumference of
the plant receiving end 49 is larger than that of the base 47. In addition, it is
apparent that the overlap of edges 43 and 45 provides the connection between these
edges to allow the formation of the cylinder. In this example, connection means 50
and 52 are integrally formed with the net 37 and are adapted to fit together, forming
a releasable connection. Where a container is formed from the section of straight
edged material shown in Figure 4b, the container is of substantially constant diameter,
e.g. as shown in Figure 8.
[0095] In the example of Figures 4a, 4b and 5 the edges 43 and 45 have protuberances 39
arranged along their length. When the net 37 is rolled such that the edges 45 and
43 overlap one set of protuberances arranged along the edge 43 engages with the other
set of protuberances along the edge 45. This is achieved by nesting one set of protuberances
with the other.
[0096] Figure 6a shows a further embodiment of the present invention in which a base 61
is connected to the net 51, similar to the net shown in Figure 4a. The base 61 is
connected to the net 51 by means of a living hinge 63. The base 61 contains a series
of apertures 64 made in a raised section of the base 61. The apertures are supported
by inclined sections 62 that extend from the plane of the base up to the apertures
64. This feature is shown in Figures 6a and 6b. In use the base 61 is twisted about
the living hinge 63 from a substantially vertical position to a substantially horizontal
position and the net is rolled into a cylindrical shape as described with respect
of Figure 4a.
[0097] Figure 7 shows an embodiment of the present invention in use. Figure 7 shows a cross
section of part of a plant container 65, a plant stem 67, roots 69 and a plurality
of recesses 71, apertures 73 and protuberances 75. A base 77 is also shown. As can
be seen from Figure 7 the roots are guided by virtue of the asymmetry of the recesses
towards the apertures 73 defined at the end of the recesses 71.
[0098] Figure 8 shows another embodiment of a plant container 90 having two spaced apart
rows of protuberances 92, 94 which extend further into the space defined by the container
than the other protuberances. In use, edges of a base, such as the base 61 shown in
Figure 6a, are received between the spaced apart rows of protuberances 92, 94, whereby
upwards and downwards movement of the base is resisted. The plant container 90 of
Figure 8 also comprises two rows of spaced apart protuberances 100, 102 that extend
around the outer surface of the container to a sufficient extent to receive a rectangular
piece of card 106, which is marked to identify the plant contained in the container.
[0099] Figures 9a and 9b represent manufacturing apparatus 110 for forming a section of
material, which is configured to be formed as a plant container, from a sheet of deformable
material 111. The apparatus 110 comprises first and second tools 112, 114, each of
which has a regular array of rows and columns of protruding elements 116, 118. As
can be seen from the side view of the apparatus shown in Figure 9a, each row of protruding
elements of the first tool 112 is out of registration with the corresponding row of
protruding elements of the second tool 114, and such that each protruding element
of the first tool is closer to a first protruding element of the second tool than
a second protruding element of the second tool, the first and second protruding element
being adjacent and in the same row of the second tool. Turning now to Figure 9b, which
provides an end view of the apparatus 110, the columns of the protruding elements
of the first and second tools 112, 114 can be seen to be in line with each other.
Thus, when the first and second tools are moved towards each other and such that they
maintain their relative dispositions (i.e. from the position shown in Figures 9a and
9b) each protruding element deforms the sheet of deformable material 111 to form the
asymmetric recesses and protuberances in the inner and outer surfaces of the material.
An aperture is formed at the end of each recess by cutting off the apex of the protrusion
on the opposing side of the sheet of material that corresponds to the recess.
1. A plant container (13,65) comprising at least one section of material, the at least
one section of material being configured to define a space having a plant receiving
end (27), the at least one section of material having an inner surface and an outer
surface, the inner surface defining a plurality of recesses (19,71), each of which
narrows towards an aperture (23,73), and a plurality of protuberances (21,75), characterised in that each recess (19,71) being defined in part by first (22) and second (24) substantially
opposing surfaces such that the recess (19,71) is asymmetric in form.
2. A plant container (13,65) according to claim 1, in which each recess (19,71) defines
a second aperture from which the recess narrows towards the first aperture (23,73)
and in which each recess (19,71) is configured such that the first (23,73) and second
apertures are disposed eccentrically in relation to each other.
3. A plant container (13,65) according to claim 1 or 2, in which each protuberance (21,75)
is asymmetric in form.
4. A plant container (13,65) according to any preceding claim, in which the plurality
of protuberances (21,75) are interspersed amongst the plurality of recesses (19,71)
and the first and second surfaces of each recess (19,71) are formed at least in part
by surfaces of the protuberances (21,75).
5. A plant container (13,65) according to any preceding claim, in which at least one
of the plurality of recesses (19,71) and the plurality of protuberances (21,75) are
formed as an array, adjacent recesses (19,71) of the array of recesses (19,71) being
substantially equally spaced apart from each other and adjacent protuberances (21,75)
of the array of protuberances (21,75) being substantially equally spaced apart from
each other, each of the array of recesses (19,71) and the array of protuberances (21,75)
comprising a plurality of rows and a plurality of columns, and the protuberances (21,75)
alternating in the array with recesses (19,71).
6. A plant container (13,65) according to claim 5, in which one of the plurality of rows
and columns of recesses (19,71) is misaligned with an adjacent, corresponding one
of rows and columns of protuberances (21,75).
7. A plant container (13,65) according to claim 6, in which each protuberance (21,75)
is closer to a first recess (19,71) than a second recess (19,71), the first and second
recesses being adjacent and in the same row of recesses (19,71).
8. A plant container (13,65) according to any one of claims 5 to 7, in which each row
of the plurality of rows of at least one of the recesses (19,71) and the protuberances
(21,75) extend diagonally across the section of material.
9. A plant container (13,65) according to any one of claims 1 to 5, in which at least
one of the plurality of recesses (19,71) and the plurality of protuberances are formed
as an array, at least one of recesses (19,71) of the array of recesses (19,71) and
of protuberances (21,75) of the array of protuberances (21,75) being irregularly spaced
apart from each other, each of the array of recesses (19,71) and the array of protuberances
(21,75) comprising a plurality of rows and a plurality of columns, and one of the
plurality of rows and columns of recesses (19,71) being misaligned with an adjacent,
corresponding one of rows and columns of protuberances (21,75).
10. A plant container (13,65) according to claim 9, in which each protuberance (21,75)
is closer to a first recess (19,71) than a second recess, the first (19,71) and second
recesses being adjacent and in a same row of recesses.
11. A plant container (13,65) according to claims 9 or 10, in which spacing between adjacent
recesses (19,71) increases progressively from a side of the section of material towards
an opposing side of the section of material.
12. A plant container (13,65) according to any one of claims 9 to 11, in which spacing
between adjacent protuberances (21,75) increases progressively from a side of the
section of material towards an opposing side of the section of material.
13. A plant container (13,65) according to any one of claims 9 to 12, in which a width
of each member of at least one of: the plurality of recesses(19,71); and the plurality
of protuberances (21,75) progressively increases across the section of material.
14. At least one section of material (31,37) for forming a plant container, the at least
one section of material (31,37) having an inner surface and an outer surface, the
inner surface defining a plurality of recesses (19,41), each of which narrows towards
an aperture (23), and a plurality of protuberances (21,39), characterised in that each recess (19,41) being defined in part by first and second substantially opposing
surfaces such that the recess (19,41) is asymmetric in form.
15. A process of forming a section of material (31,37), which is configured to be formed
as a plant container (13,65), the process comprising the steps of:
deforming a section of deformable material to form a plurality of recesses (19,41,71)
and a plurality of protrusions on an inner surface of the section of material, characterised in that each of the plurality of recesses (19,41,71) narrowing towards an apex and being
defined in part by first and second substantially opposing surfaces such that the
recess (19,41,71) is asymmetric in form; and
forming an aperture (23,73), at the apex of each of the plurality of recesses (19,41,71).
1. Pflanzenbehälter (13,65), der wenigstens einen Materialabschnitt aufweist, wobei der
wenigstens eine Materialabschnitt so konfiguriert ist, dass er einen Raum mit einem
Pflanzenaufnahmeende (27) definiert, wobei der wenigstens eine Materialabschnitt eine
Innenfläche und eine Außenfläche hat, wobei die Innenfläche mehrere Aussparungen (19,
71), die sich jeweils in Richtung einer Öffnung (23, 73) verschmälern, und mehrere
Vorsprüngen (21, 75) definiert, dadurch gekennzeichnet, dass jede Aussparung (19, 71) teilweise durch eine erste (22) und eine dieser im Wesentlichen
gegenüberliegende zweite (24) Fläche definiert wird, so dass die Aussparung (19, 71)
eine asymmetrische Form hat.
2. Pflanzenbehälter (13, 65) nach Anspruch 1, wobei jede Aussparung (19, 71) eine zweite
Öffnung definiert, von der aus sich die Aussparung in Richtung der ersten Öffnung
(23, 73) verschmälert, und wobei jede Aussparung (19, 71) so konfiguriert ist, dass
die erste (23, 73) und die zweite Öffnung exzentrisch zueinander angeordnet sind.
3. Pflanzenbehälter (13, 65) nach Anspruch 1 oder 2, wobei jeder Vorsprung (21, 75) eine
asymmetrische Form hat.
4. Pflanzenbehälter (13, 65) nach einem der vorherigen Ansprüche, wobei die mehreren
Vorsprünge (21, 75) zwischen den mehreren Aussparungen (19, 71) verteilt sind und
die erste und die zweite Fläche jeder Aussparung (19, 71) wenigstens teilweise von
Flächen der Vorsprünge (21, 75) gebildet werden.
5. Pflanzenbehälter (13, 65) nach einem der vorherigen Ansprüche, wobei die mehreren
Aussparungen (19, 71) und/oder die mehreren Vorsprünge (21, 75) als eine Abfolge ausgebildet
sind, wobei nebeneinanderliegende Aussparungen (19, 71) der Abfolge von Aussparungen
(19, 71) im Wesentlichen gleichmäßig voneinander beabstandet sind und wobei nebeneinanderliegende
Vorsprünge (21, 75) der Abfolge von Vorsprüngen (21, 75) im Wesentlichen gleichmäßig
voneinander beabstandet sind, wobei die Abfolge von Aussparungen (19, 71) und die
Abfolge von Vorsprüngen (21, 75) jeweils mehrere Reihen und mehrere Spalten umfassen
und die Vorsprünge (21, 75) sich in der Abfolge mit Aussparungen (19, 71) abwechseln.
6. Pflanzenbehälter (13, 65) nach Anspruch 5, wobei eine der mehreren Reihen und Spalten
von Aussparungen (19, 71) mit Bezug auf eine angrenzende entsprechende Reihe und Spalte
von Vorsprüngen (21, 75) versetzt ist.
7. Pflanzenbehälter (13, 65) nach Anspruch 6, wobei jeder Vorsprung (21, 75) näher an
einer ersten Aussparung (19, 71) als eine zweite Aussparung (19, 71) ist, wobei die
erste und die zweite Aussparung nebeneinander und in derselben Reihe von Aussparungen
(19, 71) liegen.
8. Pflanzenbehälter (13, 65) nach einem der Ansprüche 5 bis 7, wobei jede Reihe der mehreren
Reihen von Aussparungen (19, 71) und/oder Vorsprüngen (21, 75) diagonal über den Materialabschnitt
verläuft.
9. Pflanzenbehälter (13, 65) nach einem der Ansprüche 1 bis 5, wobei die mehreren Aussparungen
(19, 71) und/oder die mehreren Vorsprünge als eine Abfolge ausgebildet sind, wobei
die Aussparungen (19, 71) der Abfolge von Aussparungen (19, 71) und/oder die Vorsprünge
(21, 75) der Abfolge von Vorsprüngen (21, 75) unregelmäßig voneinander beabstandet
sind, wobei die Abfolge von Aussparungen (19, 71) und die Abfolge von Vorsprüngen
(21, 75) jeweils mehrere Reihen und mehrere Spalten umfassen und eine der mehreren
Reihen und Spalten von Aussparungen (19, 71) mit Bezug auf eine angrenzende entsprechende
Reihe und Spalte von Vorsprüngen (21, 75) versetzt ist.
10. Pflanzenbehälter (13, 65) nach Anspruch 9, wobei jeder Vorsprung (21, 75) näher an
einer ersten Aussparung (19, 71) als eine zweite Aussparung ist, wobei die erste (19,
71) und zweite Aussparung nebeneinander und in der gleichen Reihe von Aussparungen
liegen.
11. Pflanzenbehälter (13, 65) nach den Ansprüchen 9 oder 10, wobei der Abstand zwischen
nebeneinanderliegenden Aussparungen (19, 71) von einer Seite des Materialabschnitts
in Richtung auf eine gegenüberliegende Seite des Materialabschnitts allmählich zunimmt.
12. Pflanzenbehälter (13, 65) nach einem der Ansprüche 9 bis 11, wobei der Abstand zwischen
nebeneinanderliegenden Vorsprüngen (21, 75) von einer Seite des Materialabschnitts
in Richtung auf eine gegenüberliegende Seite des Materialabschnitts allmählich zunimmt.
13. Pflanzenbehälter (13, 65) nach einem der Ansprüche 9 bis 12, wobei eine Breite jedes
Elements der mehreren Aussparungen (19, 71) und/oder der mehreren Vorsprünge (21,
75) über den Materialabschnitt allmählich zunimmt.
14. Wenigstens ein Materialabschnitt (31, 37) zum Bilden eines Pflanzenbehälters, wobei
der wenigstens eine Materialabschnitt (31, 37) eine Innenfläche und eine Außenfläche
hat, wobei die Innenfläche mehrere Aussparungen (19, 41), die sich jeweils in Richtung
einer Öffnung (23) verschmälern, und mehrere Vorsprünge (21, 39) definiert, dadurch gekennzeichnet, dass jede Aussparung (19, 41) teilweise durch eine erste und eine dieser im Wesentlichen
gegenüberliegende zweite Fläche definiert wird, so dass die Aussparung (19, 41) eine
asymmetrische Form hat.
15. Verfahren zum Bilden eines Materialabschnitts (31, 37), der so konfiguriert ist, dass
er zu einem Pflanzenbehälter (13, 65) ausgebildet werden kann, wobei das Verfahren
die folgenden Schritte beinhaltet:
Verformen eines Abschnitts von verformbarem Material, um mehrere Aussparungen (19,
41, 71) und mehrere Vorsprünge auf einer Innenfläche des Materialabschnitts zu bilden,
dadurch gekennzeichnet, dass jede der mehreren Aussparungen (19, 41, 71) sich in Richtung einer Spitze verschmälert
und teilweise durch eine erste und eine dieser im Wesentlichen gegenüberliegende zweite
Fläche definiert wird, so dass die Aussparung (19, 41, 71) eine asymmetrische Form
hat; und
Bilden einer Öffnung (23, 73) an der Spitze von jeder der mehreren Aussparungen (19,
41, 71).
1. Récipient pour plantes (13, 65) comprenant au moins une section de matériau, ladite
au moins une section de matériau étant configurée pour définir un espace avec une
extrémité de réception de plantes (27), ladite au moins une section de matériau présentant
une surface interne et une surface externe, la surface interne définissant une pluralité
d'évidements (19, 71), dont chacun se rétrécit vers une ouverture (23, 73), et une
pluralité de saillies (21, 75), caractérisé en ce que chaque évidement (19, 71) est défini en partie par une première (22) et une seconde
(24) surfaces sensiblement opposées de sorte que l'évidement (19, 71) a une forme
asymétrique.
2. Récipient pour plantes (13, 65) selon la revendication 1, dans lequel chaque évidement
(19, 71) définit une seconde ouverture à partir de laquelle l'évidement se rétrécit
vers la première ouverture (23, 73) et dans lequel chaque évidement (19, 71) est configuré
de telle sorte que la première (23, 73) et la seconde ouvertures sont disposées de
façon excentrique l'une par rapport à l'autre.
3. Récipient pour plantes (13, 65) selon la revendication 1 ou 2, dans lequel chaque
saillie (21, 75) a une forme asymétrique.
4. Récipient pour plantes (13, 65) selon l'une quelconque des revendications précédentes,
dans lequel la pluralité de saillies (21, 75) est répartie parmi la pluralité d'évidements
(19, 71), et la première et la seconde surfaces de chaque évidement (19, 71) sont
formées au moins en partie par des surfaces de saillies (21, 75).
5. Récipient pour plantes (13, 65) selon l'une quelconque des revendications précédentes,
dans lequel l'un au moins des postes suivants, à savoir la pluralité d'évidements
(19, 71) et la pluralité de saillies (21, 75), est formé en tant que groupe, alors
que des évidements adjacents (19, 71) du groupe d'évidements (19, 71) sont espacés
de façon sensiblement régulière l'un de l'autre et que des saillies adjacentes (21,
75) du groupe de saillies (21, 75) sont espacées de façon sensiblement régulière l'une
de l'autre, chacun des groupes, à savoir le groupe d'évidements (19, 71) et le groupe
de saillies (21, 75) comportant une pluralité de rangées et une pluralité de colonnes,
et les saillies (21, 75) étant en alternance dans le groupe avec les évidements (19,
71).
6. Récipient pour plantes (13, 65) selon la revendication 5, dans lequel l'une de la
pluralité de rangées et de colonnes d'évidements (19, 71) n'est pas en alignement
avec une pluralité correspondante adjacente de rangées et de colonnes de saillies
(21, 75).
7. Récipient pour plantes (13, 65) selon la revendication 6, dans lequel chaque saillie
(21, 75) est plus proche d'un premier évidement (19, 71) qu'un second évidement (19,
71), les premier et second évidements se trouvant en position adjacente et dans la
même rangée d'évidements (19, 71).
8. Récipient pour plantes (13, 65) selon l'une quelconque des revendications 5 à 7, dans
lequel chaque rangée de la pluralité de rangées de l'un au moins des postes suivants,
à savoir les évidements (19, 71) et les saillies (21, 75) s'étend dans le plan diagonal
en travers de la section de matériau.
9. Récipient pour plantes (13, 65) selon l'une quelconque des revendications 1 à 5, dans
lequel l'un au moins des postes suivants, à savoir la pluralité d'évidements (19,
71) et la pluralité de saillies, est formé en tant que groupe, l'un au moins des évidements
(19, 71) du groupe d'évidements (19, 71) et l'une au moins des saillies (21, 75) du
groupe de saillies (21, 75) étant en espacement irrégulier l'un par rapport à l'autre,
chacun des groupes, à savoir le groupe d'évidements (19, 71) et le groupe de saillies
(21, 75) comprenant une pluralité de rangées et une pluralité de colonnes, et alors
que l'une de la pluralité de rangées et de colonnes d'évidements (19, 71) n'est pas
en alignement avec une pluralité correspondante adjacente de rangées et de colonnes
de saillies (21, 75).
10. Récipient pour plantes (13, 65) selon la revendication 9, dans lequel chaque saillie
(21, 75) est plus proche d'un premier évidement (19, 71) qu'un second évidement, les
premier (19, 71) et second évidements se trouvant en position adjacente et dans une
même rangée d'évidements.
11. Récipient pour plantes (13, 65) selon la revendication 9 ou 10, dans lequel l'espacement
entre des évidements adjacents (19, 71) augmente progressivement depuis un côté de
la section de matériau vers un côté opposé de la section de matériau.
12. Récipient pour plantes (13, 65) selon l'une quelconque des revendications 9 à 11,
dans lequel l'espacement entre des saillies adjacentes (21, 75) augmente progressivement
depuis un côté de la section de matériau vers un côté opposé de la section de matériau.
13. Récipient pour plantes (13, 65) selon l'une quelconque des revendications 9 à 12,
dans lequel une largeur de chaque élément de l'un au moins des postes suivants :
la pluralité d'évidements (19, 71) ; et la pluralité de saillies (21, 75) augmente
progressivement en travers de la section de matériau.
14. Au moins une section de matériau (31, 37) destinée à former un récipient pour plantes,
ladite au moins une section de matériau (31, 37) présentant une surface interne et
une surface externe, la surface interne définissant une pluralité d'évidements (19,
41), dont chacun se rétrécit vers une ouverture (23), et une pluralité de saillies
(21, 39), caractérisée en ce que chaque évidement (19, 41) est défini en partie par une première et une seconde surfaces
sensiblement opposées de sorte que l'évidement (19, 41) a une forme asymétrique.
15. Procédé de formage d'une section de matériau (31, 37) qui est configurée pour être
formée comme récipient pour plantes (13, 65), le procédé comprenant les étapes consistant
à :
déformer une section de matériau déformable afin de former une pluralité d'évidements
(19, 41, 71) et une pluralité de saillies sur une surface interne de la section de
matériau, caractérisé en ce que chaque évidement de la pluralité d'évidements (19, 41, 71) se rétrécit vers un sommet
et est défini en partie par une première et une seconde surfaces sensiblement opposées
de sorte que l'évidement (19, 41, 71) a une forme asymétrique ; et
ménager une ouverture (23, 73) au niveau du sommet de chaque évidement de la pluralité
d'évidements (19, 41, 71).